@article{oai:repo.qst.go.jp:00048355,
 author = {本多, 充 and 佐竹, 真介 and 鈴木, 康浩 and 篠原, 孝司 and 吉田, 麻衣子 and 成田, 絵美 and 仲田, 資季 and 相羽, 信行 and 白石, 淳也 and 林, 伸彦 and 松永, 剛 and 松山, 顕之 and 井手, 俊介 and 本多 充 and 篠原 孝司 and 吉田 麻衣子 and 成田 絵美 and 相羽 信行 and 白石 淳也 and 林 伸彦 and 松永 剛 and 松山 顕之 and 井手 俊介},
 issue = {11},
 journal = {Nuclear Fusion},
 month = {Nov},
 note = {Capabilities of the integrated framework consisting of TOPICS, OFMC, VMEC and FORTEC-3D, have been extended in fully non-axisymmetric perturbed magnetic fields. The toroidally localized perturbed fields due to the test blanket modules augment the neoclassical toroidal viscosity (NTV) substantially in an ITER L-mode discharge. The NTV takes up a large portion of total torque in ITER. When the n=3 perturbed fields with 10kA coil currents are applied in JT-60SA, the non-resonant n = 18 NTV components are found to predominate. The theoretical model of the intrinsic torque due to the fluctuation-induced residual stress is calibrated by the JT-60U data.},
 pages = {116050-1--116050-17},
 title = {Predictions of toroidal rotation and torque sources arising in non-axisymmetric perturbed magnetic fields in tokamaks},
 volume = {57},
 year = {2017}
}